FR2753223A1 - Protective cage to protect individuals from earthquakes and lead to their rescue - Google Patents

Abstract

The protective cage is large and made of very resistant and light materials which have been made into components which have been tested. The cage can be transported manually and constructed in a home without requiring any architectural modifications. The cage is cuboid and has 12 L-shaped edge sections (1) which are bolted together. There is a circular entrance (3) made of curved L-shaped sections (2)and there are angled sections (3) at the sides. The cage contains an earthquake detector (40), a device for detecting shocks (37) and an alarm and locating device (38) powered by a battery (39). The earthquake detector reacts if its horizontal position is changed and activates the audible or light emitting alarm. The shock detector detects debris falling on the cage and then activates a radio signal allowing individuals to be located after an earthquake.

Description

iESCRIPTI0 N
The present invention relates to a Combination of Safety Devices, inseparable, intended for the Prevention, Protection and Rescue of its users in the event of an earthquake - This new combination of means includes a
Main physical protection device and its devices
Prevention and localization appendices for rescue.

 For several decades the technique of building new dwellings has taken into account possible earthquakes and therefore applies anti-seismic standards, and especially in order to avoid the destruction of these buildings in the event of strong earthquakes - these anti-seismic standards primarily concern the structure and construction components, but often do not protect its inhabitants from possible falls of various materials located above or in their immediate vicinity, during a strong earthquake, such as: partition walls, decorative components of ceilings , hanging furniture, lighting chandeliers, etc ...

placed during or after these earthquake-resistant constructions.

On the other hand, an incommensurable number of old-age or even current dwellings are not seismically protected and will probably never be, given that it would be entirely necessary to demolish them in order to rebuild them according to anti-seismic standards. This results in hundreds of thousands, or millions, of people living in these non-seismically protected dwellings, and future deadly traps in the event of large earthquakes (which are already planned by competent seismologists in several regions of our Territory, like for example: Pyrenees, Alps, Massif Central, Alpes Maritines, Côte d'beur, etc ... etc ... Areas formerly volcanic and / or subject to internal geological movements - with current impossibility to predict or specify: when and where these earthquakes will occur - This remark also extends to an infinity of other regions of the Globe)
The majority of dead and seriously injured during strong earthquakes, excluding burial, are generally victims of the fall of the above-mentioned heavy and various materials, such as ceilings
roofs, trusses, walls, furniture, etc ... hole in front above them and then crushing them during the destruction of housing following the earthquake.

It should also be noted that the greatest number of dead or seriously injured occurs when these destructive earthquakes occur at night: the moment when future victims are in bed - the rapidity of the earthquake surprises them in their sleep, the prevents either from going outside, looking for a place clear of construction, or from taking refuge under a shelter ~ solid in the wake of the destructive consequences of earthquake (First reflexes of instinct of conservation)
It is therefore important, in order to greatly reduce the number of possible future victims of earthquakes, to protect them as a priority during their sleep or rest, or give them the possibility of quickly reaching a shelter in the immediate vicinity, thus protecting them from possible crushing or of inextricably buried under rubble.

One of the simplest solutions for protection against possible falls of rubble occurring vertically above the occupants of a house during an earthquake, will be. to shelter them in a solid sorted base (and of large volume)
at ~ aSt ~ gt well covered serving as a shield whose load resistance will exceed several tens of uinta ~ of rubble.

(What will be possible easily understandable and achievable by a skilled person, thanks to the structure, components and plans of this Device which will follow in this Description)
This cage mentioned above, protecting them from the destructive consequences of an earthquake will therefore be the main anti-seismic device of this invention.

 This Main Device will be manufactured in series, in very large quantities, in detached elements, easily and manually - only transportahless in order to be assembled or reassembled in a dwelling, without architectural changes for this one. - it will be made of very strong and relatively light material, metallic or composite -, or even very hard wood or bamboo - preference going to solid and light metals (aluminum alloy for example) or resistant composite materials (Ribre carbon for example), the latter two not being limiting - This preference justified by our current technique in this field which will allow massive manufacture of this device, but not excluding other materials meeting the same standards. solidity, lightness, anti-corrosion, -and possibly also for hardwoods ... or bamboo ...

and currently resuming development in the Far Eastern construction industry for example.

As for the composite materials mentioned above, they can be assembled and joined using special glues, such as cyanoacrylates for example, this reducing a possible weakening of the strength of the structure caused by bolt or riveting holes.

The shape of this Device will preferably be cubic, in order to distribute as uniformly as possible over its whole, the weight of the rubble which will be on its ridge following an earthquake, and also simplify its industrial manufacture by limiting the measurements of the different parts making it up - the twelve edges of a cube all having: the same dimensions
A shape of a straight or rectangular parallelepiped, but not cubic
although also possible, will be avoided if the surface of the base is too inferiorly disproportionate to the height, this risking the device overturning on the side during an earthquake (the opposite, ie surface of the base superiorly proportioned to the height, will be acceptable and will even be a variant of this device.)
This arrangement must also be high enough so that people inside it do not feel trapped in it, and wide enough to be able to contain either rest material such as a double bed - or else home living equipment - such as those used in living areas, meals, offices, etc. - This protection device is not unique - only reserved for rest and sleep, although its des -t inat main ion or that one, several of these devices can be assembled in the same house, in order to maximize, at a reasonable price, the anti-seismic protection for its inhabitants = from the first signs of earthquake (rumbles on land , first wobbles, slight tremors, falling small objects, etc.) they can quickly reach and take refuge in one of these devices, if they are not already inside for reasons of normal life.

(A pre-seismic motion detector of simplified but effective electro-meanic manufacturing located in a Main Device, as an Annex Device, also activated, will warn its users to take shelter.
This pre-seismic detector will be described later)
The vertical sides of the Main Device end up being strongly plugged to resist as much as possible the load of rubble that will be on its face during an earthquake must have large openings to allow easy and very fast access - The struts or vertical tie rods for reinforcement, bracing, although this is not limiting, will be of curved shape (in 1/4 of a circle) for the access faces, so that they present to view a circular opening, instead of a rhombic or rectangular opening, once assembled - this main device being permanently installed in a suit in the -tion: the circle will accommodate most aesthetically with the rest of the decor and will camouflage the cage aspect of this device (while the rectangle or the rhombus can denote and tire by their visual angularity)
The lateral faces will be reinforced by straight tie rods stuck at 450 edges, this resulting in a square structure included at 450 in another square structure.

 The Base of the Main Device will be reinforced by several internal ties fixed to its basic horizontal edges, and level and in direct contact with the ground on which this device rests, distributing as much as possible the load on the ground of the container and the planned rubble on his fate in the event of an earthquake.

 The splendor of this Device will include several reinforcement failures, crossed and fixed to its upper horizontal edges: in order to consolidate the structure and serve as a protective shield against rubble falling above this cage - these purlins will be fairly close to each other, crossed and superimposed, and will support a strong grill (made of expanded metal for example) directly fixed above or embedded between these purlins in order to block small rubble that can pass between these failures and injuring occupants below.

These breakdowns and this planned mesh will allow, while strengthening and protecting, to let the light Sasser from above, avoid a possible optical effect of lowering it artificially - only the height, promoting normal ventilation, conversely
a surface entirely covered with a smooth, opaque and
waterproof - although not limiting
These failures may also be made of a different material than.

rest of structure, provided they are strong, light
and very resistant.

The quarter-round tie rods or struts, making up the
circular accesses of this device, not being common in
the current structural industry, will have to be specially
manufactured, as well as their fastenings to the structure and between
them.

The circular access ~ of large diameter of this device, also will facilitate the arrangement of interior furniture and
will camouflage its cage appearance.

The other elements making up the structure and connecting the edges
of this device must also be specially manufactured and
officially tested from the resistanoe point of view, these components are not also common in the
frame, or do not exist in the shapes, dimensions, m-atérisux, destinations, described in this invention.

The first importance of this device being to serve as a shield in the event of earthquakes it is also important that if this happens, and that this protective cage is found buried
and hidden under rubble, that we can know
existence and situate its position.

This device will therefore contain an alarm transmitter for radio and / or sound positioning, triggering automatically in the event of a destructive earthquake, thanks to contactors-crush shock detectors) connected to this transmitter, and which is -will be fixed on the face of this device- These shock detectors are to be available in large numbers,
will be specially made for this invention they will be
electro-mechanical, simple design and visually controllable cost price very basv and cevoi contrary = -electronic types that might return
very expensive and sometimes difficult to control over time.

This alarm transmitter will also be connected to an electro-mechanical detector of low intensity pre-seismic movements.
s unreadable by beings in motion or in sleep
sufficient to trigger the start-up of this Detector.

Once the alarm triggered by this detector of weak pre-seismic movements, and perhaps predicting much stronger movements which will ensue, people in the house containing this device, will be able to rush into the anti-seismic protection cage, located near. The existence of this pre-seismic detector as well as an anti-seismic protection cage, in a dwelling, will serve to partially reassure its inhabitants, especially if they reside in an area more prone to earthquakes (as is currently the case). the case in the Alps).

And as it is said above, in case the house is not built with anti-seismic standards (which is also the case for an immeasurable number of residences), the use of anti-seismic devices described in this invention, could very much reduce the number of seriously injured or dead during a strong earthquake.

On the other hand, once these devices are industrially manufactured and marketed and concerning this significant number ~ r 5 of houses not seismically protected, it is clear that the demand for these devices will surely exceed their existing number, and that it will be necessary perhaps plan a massive global industrial production, with maximum resistance checks.

THE FOLLOWING FIGURES ILLUSTRATE AND SUMMARY THE ACHIEVEMENTS:
Figure 1 shows the front or rear face of the earthquake-resistant cage, whose L-section components are either bolted (4-13-14) or riveted, have struts (2) in 1/4 of a circle, forming a circular access opening (8), and supporting - ridge faults (6), and resting on braces (g) of bracing - The fattage also supports contactors shock detectors (37) connected to an alarm box location (38) - Inside this cage is also a pre-seismic motion detector (40) - The edges (1) of this cage are joined together either by bolting or riveting.

(The ridge must support several tonnes of load) Figure 2 shows the side faces of this cage and comprising oblique struts (3) fixed to the edges (1) by bolting (12) - The other components of this figure are the same as in Figure 1.

Figure 3 represents in perspective the object of this invention - The measurement scale in cms of this figure is not limiting, it is present to indicate the order of magnitude of this anti-seismic cage, allowing people to 'stand there inside or place sleeping elements for example, its interior volume approaching 15 M3, corresponds to a small room. The components of this
Figure 3 are the same as in Figures 1 and 2 and are added to these elements: special plates (7) for fixing the struts in a 1/4 circle (2) by bolting (13), wire mesh ( îo) of strong resistance, in expanded metal for example, fixed between the purlins (6) upper and lower criss-crossed, the connection of the shock detectors (37) with the locating alarm transmitter (38) is not shown in this figure, but will be shown in Figure 38.

Figure 4 shows the possible assembly of the vertical L-shaped edges with horizontal L-shaped edges (1 ABC), the upper and lower crisscrossing faults (6 EDF) on the upper horizontal angles (1 AC), embedding the strong mesh (10), and supporting the impact detector-contactors (37).

 Figure 5 shows the assembly of the oblique struts (3) with the horizontal angles (1 C) and the fatting faults (6 ED) - The end of the oblique angle (3) is cut and folded back to 45 Q for s 'adapt to piat aveo the ridge angle (1 C) - The end of this oblique strut (3) is drilled in 2 places to allow the fixing bolts (11 and 5).

Figure 6 shows the same assembly as in Figure 5 but in perspective in order to clearly show the folding of the end of the oblique strut (3), for flat assembly.

The Fifre 7 represents in plan and in section, the special fixing plate (7) for assembling special struts in 1/4 of a circle (2), by bolting (13).

Figure 8 shows in perspective the same assembly as in
Figure 7.

The FiS re-g-represents in perspective the assembly of the special struts in 1/4 of a circle (2) with the angles and fatting tips (1 A- 6 F) by bolting (4-I2).

Figure 10 shows the assembly of the struts in plan and in section, oblique struts (3) with the struts in 1/4 circle (2), assembled to the vertical angles (1 B) by bolting. (4-5 -14) and special fixing block (15), blocking the assembly bolting (4) at the end of the 2 oblique angles (3)
Figures 11, 12 and 13 show in perspective, plan and section, this same special fixing wedge (15) mentioned in Figure 10, having in its center the passage hole (19) for bolting.

Figure 14 shows in perspective, the folding at 45 t, the ends of the oblique struts (3), allowing their assembly -blage, the lower section (18) being cut and removed, and the upper section (17) being folded at 45 It is drilled in 11-14 and 16 to allow bolting assembly.

Figure 15 shows in plan and in section the same folding at 45 Q as in Figure 14- The base of the oblique strut (3) being drilled to allow bolting (5)
Figure 16 shows the fatting plan, composed of purlins (6 DEF) fixed to the upper horizontal angles (1 A), intersecting and superimposed, and embedding a strong mesh (10) and supporting contactors-shock detectors (37)
Figure 17 shows in plan, the base of the device, reinforced with braces (9) bracing oonsolidating the assembly and distributing the load on the ground these braces (9) are superimposed and intertwined, and fixed by bolting to base angles (1) - On these ties rests the tracking alarm transmitter (38) and the pre-seismic movement detector-warning (40).

Figure 18 shows in perspective a variant of this anti-seismic protection cage with square section beams (1) instead of angles. The assembly is assembled using special sleeves with square section (21-23- 27-31), comprising struts in a quarter of a circle (24) with rectangular section and fixed to the assembly by special arched sleeves and with square section (26-32), oblique struts (3) with square section, and supporting the same plowing as the L-section variant as shown in FIG. 16.

Figure 19 shows in plan and in perspective a counter-plug in 1/4 of a circle (24) with rectangular section, adapting to the variant with square section (Fig. 18) Figure 20 shows in perspective and cut the sleeve
special (25) arched and square section for assembly of
struts in 1/4 of a circle (24).

Figure 21 shows a variant of this sleeve: three
directions- This special arched sleeve with square section (26),
used to assemble the strut in a 1/4 circle (24) with
the rest of the square section assembly.

Figure 2Z shows in perspective and in plan a sleeve
special square section (21) with three directions for assembling the edges of this device.

Figure 23 shows in perspective and in plan a sleeve
special with square section (22) with four directions for vertical and horizontal assembly.

Figure 24 shows in perspective and in plan a sleeve
special square section (27) with three flat directions for
assembly of the fattage or the base of this anti device
seismic.

Figure 25 shows in perspective and in plan a sleeve
special square section (23) with four flat directions for
assembly of the fattage and the base of this anti device
seismic.

(The measurement scale for all of the figures 19-20-21-22-
23-24-25, is not limiting) Figure 20 shows in perspective and in plan and cuts a
special sleeve with square section t28) with three directions and
flat with spacing at 45, for assembly of a variant
of the device shown later in Figure 32.

Figure 21 shows a perspective, plan and section of a sleeve
special square section (29) with four directions flat with
spacings at 45, for assembly of a variant of the device
shown in figure 33.

Figure 28 shows a perspective, plan and section of a sleeve
special square section (30) with four directions flat with
spacings opposite to 45 Q (see Figure 33) (The realization of these special struts and sleeves, in light and resistant material; is defined by the details and non-limiting measurements, Figures 19 to 28 and 29 to 32, next page) Figure 29 shows in perspective, plan and section a special sleeve with square section (31) in five directions for assembling oblique struts (3) with square section with ridge of the anti-seismic device.

Figure 30 shows in perspective, plan and section a special arcuate sleeve with square section (32) in four directions for assembling the struts in 1/4 circle (24), fitting into the housing A, and whose spacings to 45 Q assemble in C the oblique struts (3) and in it the edges read anti-seismic device.

 Figure 31 shows in perspective, plan and section a special sleeve with square section (33) with six directions and three in space, for assembling oblique struts (3) with square section with the whole anti-seismic device ( see Fig. 32) Figure 32 shows in perspective a variant of the anti-seismic cage concerned by this invention, with a square section, but not comprising struts in 1/4 of a circle, which are replaced by oblique struts (3 ), the assembly being assembled at the edges (1) by special sleeves with square section (21-22-23-27-28-31-33.) FIG. 33 shows in plan the felling of the variant concerned in FIG. 32, not comprising purlins (6), but replaced by special sleeves with square section (21-27 28-29-30-33) connected to the edges (1) and between them by bars with square section and supporting a mesh (10) for additional protection.

(The scale of measurements in Figures 26 to 33 is not exhaustive)
Figure 34 shows in perspective, plan and section, a transformation of a sleeve with a square section into a sleeve with a circular section by the addition of a circular end piece (34) which fits into a sleeve. with square section (27) - The crown 3 of this end piece (34) is bolted to the axis A with square section, which itself fits into the square section of the sleeve (27) -fixed then by bolting -This tip (34) will be called circular "reduction" for square section sleeve
This "reduction't will be used for example to assemble this anti-seismic device with elements with circular section: Bamboo or hardwood, or other material of circular section. (Its Realization is summarized by the details and measures of this Fig. 34)
Figure 35 shows in perspective, section and plan allowing - as its Realization, a set of struts in 1/4 circle (35-AB and CD) with flat section, which will be cut from plates of hard, resistant and light material , in two "box springs" and three "keystones" of different shapes: A and Ds and BC, Au and CDs so that once assembled (see cut-assembly) in the order AB or CD between A or D and BC and bolted or riveted, this creating a "semicircular arch" for support and bracing of the assembly and the fattage, by the two struts in 1/4 circle (35-AB or CD) joined together and forming an arch. of access- This Figure ~ defi- -nit a possibility of manufacturing a part of the Device
Main with flat material ready to be cut (Material
Composite, Light and resistant metal, Hardwood, etc ...)
Figure 36 shows in front plan. position of this semicircular arch of buttresses and buttressing (35) composed by two struts in 1/4 of circle AB and CD, whose bases A or D are supported by vertical pedestals with rectangular section (36), forming a access arch inside the Device
Main once assembled at the edges (1).

Figure 37 represents in perspective, section and plan allowing its Realization, a Contactor-Detector of shock (37), placed on the hood of the Main anti-seismic Device, so that once crushed by rubble it (37) engages l 'radio alarm' (a) of the transmitter (38) supplied by the DC battery (39).

The body of the contactor (37) contains a contact plate E connected to the + of the alarm transmitter (38) on one side and to the other plates E of the contactors (37) placed in series in succession; another contact plate CD with a sinusoidal profile is connected to the + of the ac-accumulator (39) and to the other CD plates of the other contactors (37) placed in succession- All of this contactor (37

And concerning the electrical connection of this Contactor-Shock sensor (37), only the lower part C of the CD plate is connected by screw-contactF to the circuit of the assembly, its upper part 1 is fixed to the body of the Contactor (37) made of insulating material. The lower contact plate E is also connected to the entire electrical circuit by contact screw H.

Figure 38 defines the composition of the Alarm Transmitter and
Identification (38), and the direction of the electrical circuit between the accumulator -tor (39), direct-current +, towards the Contactor (37) and return of the current + towards the alarm transmitter (38) itself connected to - the accumulator (39) and also connected to the + circuit of the Detector
Pre-seismic (40) = (dotted Fig. 38) -This Alarm and Locator Transmitter (38) is characterized in that it includes a Radio Quartz
HF (QZ) for radio tracking signal (AR), an audible alarm (AS), a light alarm (AL) contained or remote from this transmitter (38), a warning light (VT) for charging the accumulator (39).

Figure 39 defines the operation of the Shock Contactor-Detector (37) 5 the sheath G being crushed, the. contact plate C connected to the + of the Accu. (39) comes into contact with the contact plate E connected to the + of the transmitter (38), closing the circuit and setting off the radio tracking alarm (AR- 38) in priority, making it possible to identify at a distance or know the existence of the anti-seismic cage if.

it is hidden under rubble, and save its occupants.

Figure 40 defines in perspective, Plan and Section = a motion detector preceding an earthquake (pre-seismic) - This Pre-seismic Detector (46), made of non-electrically conductive material, is circular in plan, composed a base B and a crown C protected by a removable transparent cover (47).

The base B fixed to the main anti-seismic device by adjustable bolt (45), supports spirit levels (46) for adjusting the horizontality of the Pre-seismic Detector (40) and pierced at various points for passage of the electric wires (44 ) connected to the accumulator (39) and to 11 alarm transmitters (38). The crown C contains a circular base, the center of which is slightly hollow relative to the sides maximum 2 to 3 degrees of slope, from the center to the sides, this internal base of the crown C is hollowed out from its center by several grooves ( 42) radius-symmetrically towards the inner walls of the crown å, several contact plates (43) conducting current are fixed alternately pa.r relative to the grooves (42) on the internal part of the crown C- These contacts (43) are, in plan, sinusoSdale shape, so that a ball placed between the ends of two neighboring contacts closes the circuit (see Function of this figure) - A conductive metal ball (41) is located inside the crown C and in its center if this device is level. The crown C is pierced in several places allowing the passage of the electric wires (44) connected to the contacts (43) and to the accumulator (39) and to the alarm transmitter (38) - The last part of the Figure 40 (Function) diagrams the operation of this pre-seismic detector (40)
indeed at the slightest change in level of the detector (40), corresponding to a very slight ripple of the 5Ol undetectable by people in motion or in sleep, the contact ball (41) will take one of the grooves (42) and interrupt the circuit by contacting the ends of two neighboring contacts (43) and activating the '' Alarmos amexor (38) from then supplied by the accumulator (39).

This pre-seismic detector is protected by a removable cover (47), the center of which comprises a transparent material (49) so as to be able to visually check the position of the contact ball (41) when the detector (40) is leveled. ) during installation or for other reasons. As mentioned above: the contacts (43) will be curved in the middle and pierced in order to allow the connection, by screwing, of the conductive wires (44) and the ends of these contacts (43) will be curved back in order to wedge the contact ball (41) located between two contacts (43) during a horizontal change of level of the pre-seismic detector (40),
Figure 41 shows in perspective the individual anti-seismic protection device, consisting of a large cage made up either of L-section elements (left part of the figure) or square section elements (right part of the figure) and whose components 1 to 32 are already all detailed in the previous figures- This cage supports the contactors-shock detectors (37) and contains the pre-seismic detector (40) and the sound transmitter ( 38) locating or warning of danger. This Figure 41 is mainly intended for the Summary of this invention.

Figure 42 shows in perspective a possible use of several of these anti-seismic cages assembled and joined side by side and superimposed, corresponding to Figures 18 or 32, in order to interpose the circular accesses and the rectangular accesses facilitating the interior passages of this module and making it more aesthetic to the view. Long oblique arbaietrier (47) fixed outside the upper cages and on the lower cages will consolidate the whole and support a cover (48) on the elements lower.

This set of anti-seismic devices joined together by euy euX will be able to constitute the framework of a medium-sized dwelling with prefabricated elements, manually assembled and whose internal and external partitions (48) will be in light and resistant material fixed on the edges ( 1) of these devices - The scale of measurements in this Figure is not exhaustive, but is just an indication of size - The figure on the left of the Figure is of medium height (1.75 m approximately) and gives an idea of the dimensions of this anti-seismic assembly, the mass prefabricated components of which will therefore be reasonably priced.

The industrial production of this combination of anti-seismic devices is briefly defined by the detailed explanations accompanying the description of Figures 1 to 42 of this invention.
Either for the Main Device constituted by the Anti-seismic Shelter Cage, serving as Personal Protection during an earthquake, realization defined by application of the definitions accompanying Figures 1 to 36 and 41-42.

Either for the Annex Device constituted by the Contactors-
Shock and crushing detectors (37), used for identification and future Rescue of the Main device, implementation defined by application of the detailed explanations accompanying Figures 37, 38, 39.

Or for the Annex Device constituted by the Alarm Transmitter and Reperq! Radio (38), serving as Prevention before an earthquake and as a location for Rescue after an earthquake of the Main Device, realization defined by detailed explanations accompanying Figure 38.

Either for the Annex Device constituted by the Pre Detector
Seismic (40), (intended to detect very slight earth movements preceding a possible earthquake), connected to the Alarm Transmitter (38) j and serving as Prevention by warning its users to take shelter in the Device Princi -pal, detailed realization by explanations accompanying the
Figure 40.

All these aforementioned devices are easy to make for skilled tradesmen, such as carpenters, electricians, electro-mechanics, toolmakers, etc ... by following the detailed explanations which accompany Figures 1 to 42, and a repetition of which would only 'unnecessarily lengthen this Description. The dimensions although not limiting, but preferable, as well as the materials necessary for the realization, -tion are also detailed in the explanations accompanying Figures l to 42
As for the Main Device constituted by the anti-seismic shelter ca.ge, its dimensions not being limiting, it can be integrated (and camouflaged with its appearance of a cage) in the partitions of new constructions, and thus protect them seismically by large part, and accompanied by the aforementioned additional devices for prevention and possible rescue by radio localization.

 All the major components of these Devices must bear the manufacturer's acronyms as well as the name of the Inventor, attesting to their special manufacture relating to anti-seismic protection, meeting a maximum of resistance tests, this also in order to avoid possible counterfeits, but not meeting the required security and anti-seismic standards, as well as future legal proceedings in case of counterfeit- The names of the Manufacturer and the inventor will allow later to simplify their name: Anti-seismic devices so-and-so ... as is already the case for several projects: Autos and so ... Canoes and so-and-so ...

etc..0, and this also as moral recognition for the Fabricator and the inventor of these Devices capable of saving several thousand human lives in the future, if they are massively used in areas where large earthquakes already predicted will occur in several regions of the Globe, including our
Territory.

The period when the next earthquake will occur being impossible to establish, but possibilities very close, since there is a certain time. That large earthquakes have not occurred, it therefore wishes to better guard against these next risks by speeding up as quickly as possible the creation and use of this combination of Devices that can prevent, protect and save its users in the event of catas
-seismic trophe, never forgetting that some of these earthquakes
large amplitude in recent decades have already killed
thousands of victims by crushing or burial under
rubble, some of which would probably have been saved if
these anti-seismic devices had existed: and used.

In order to persuade as many people as possible on the importanoe
anti-seismic protection represented by these Devices,
public demonstrations should take place, prototypes
of these devices could be exposed in several places and
in view of the Press, Television, the Public, etc ... and tests
in view of the spectators in the following way = large loads
heavy and various materials (preslablemnt calculated) will be
precipitated on the top of the Main Device, which will resist
from the structural point of view, and which will demonstrate that no debris from
loads is located inside the device, only the contac
-tactors-shock detectors (37) engage the tracking transmitter
radio (38), or by subjecting the Main Device to
jerky horizontality changes such as at the start of an earthquake,
the pre-seismic detector (40) contained in the Device, is activated
and activates the arms transmitter (38) warning to put
sheltered in the anti-seismic cage.

Massive industrial manufacturing of these devices will be without
doubt necessary due to demand which risk other excessive
considering the immeasurable number of dwellings not meeting
anti-seismic standards both at the National level and
Global
Certain Arsenals currently being decommissioned may
very well recycle in Manufacturing and Marketing
of this combination of devices, with prediction of their use
- world station in the future. - (Huma.ine backup devices
instead of destruction devices-), and what will allow them
also to maintain their number of personnel, their rhythm and capa
-city of operation ... and this / also being very important in case they are called back to Defense manufactures.

 The Manufacture and Marketing by companies controlled by the State, of these anti-seismic devices will reassure their users of their efficiency - And the State will also be able to grant long payment facilities for these devices protecting the Life of the taxpayers.

 Life and Home Insurance will also be able to establish premium reductions for the owners of these anti-seismic safety devices.

Once these devices are manufactured and massively available, and their price is Minimal compared to the number of lives and handicapped people they will be able to save during strong earthquakes,
Decrees may be drawn up to impose their use in dwellings which are not seismically conforming and located in areas with high seismic risks.

Before completing the Description of this invention it is necessary to recall and insist on the protection of human life that it concerns - in the event of a light earthquake preceding a stronger one, people in the vicinity will be notified by the Pre Detector
Seismic (40) and the Alarm Transmitter (38), and will quickly take shelter in the. earthquake-resistant cage (Main Device).

- in the event of a destructive earthquake, these people will be protected from the rubble, inside the earthquake-proof hostage.

- in case of burial of the Main Device (anti-seismic cage) under rubble, its recognition and its location allowing the rescue <! of its occupants, will be provided by the post-seismic alarm and radio tracking transmitter (38) activated by the shock contactors (37).

The conclusions of these last two pages, will not be more fictitious than for certain other inventions such as: Safety belts, Protection balls / Vehicles,
Self-inflating lifeboats, etc. which are now used worldwide and even compulsory for some, and which have already saved thousands of lives today, and much more if some of these inventions had not been delayed by some unconscious quibbles or voluntary, indirectly equivalent to failure to assist people in danger, in these cases.

Claims (10)

1) Combination of safety devices mainly intended for the individual physical protection of its users, particularly against the destructive consequences of large earthquakes.  of this device is reinforced by flat braces (9) of bracing, superimposed and crisscrossed, fixed to the other (1) base of the assembly by bolting, and resting directly on the ground, thus spreading the hinges of the device and its contents and the load of rubble that will be supported by the ridge after a strong earthquake on the ground where this device rests.

The Main Device consisting of a cage (Fig 3) of earthquake protection of large volume, strongly structured and faults in very resistant and light material, and components specially machined and tested, manually franspor -tables and assembled in a house and without architectural changes for this one. This main device, preferably cubic shapes, is composed of twelve ar8tes (1) with Lt section assembled by bolting (or riveting), the front and rear faces (Fig 1) include large-diameter circular accesses (8) made by assembling struts (2) in 124 of special circle with L-section, joined by special fixing elaaues (7) with L-section, fixed by bolting (13 ), set of these struts (2) in 1/4 of a circle, joined to the assembly by bolts (4-12-14) -The side faces of this main device (Fig 2) comprises -ent oblique struts (3 ) special to L-shaped section, the ends (17) of which are specially folded back to 45 degrees (Fig 14-15) allowing flat assembly, by bolting (4-511-12-14) with the other components of the assembly: ar8tes (1) with L-shaped section and struts in 1/4 of a circle (2) with L-shaped section, with intervention of fixing shells (15) - The ridge (Fig 16) of this device, serving as a shield, comprises a set of overlapping purlins (6), as well as a strong mesh (10) embedded between these purlins (6) - The base ( The electromechanical Pre-seismic Detector (40), connected to the alarm and tracking transmitter (38) and to the direct current supply accumulator (39), reacts as soon as its level of horizontality is changed, continued to a slight undulation or variation in horizontality of the ground on which the Main Device rests and caused by slight earth movements preceding an earthquake in progress - These slight seismic beginnings undetectable by people in motion, or in sleep, will be by the Pre-seismic Detector (40) - The reaction of this Pre-seismic Detector (40), following these beginnings, activate the Sound and / or light Alarm Transmitter (38), to which it is circulated, and will warn the people in the vicinity of a possible earthquake, who will take refuge in the Main Device constituted by the anti-seismic cage.  this for the purpose of pro-seismic section omElète, .ausriri well before, during or ~ near an earthquake consisting of a Pre-seismic Detector (40), Contactors-Detectors of shock7), an Alarm Transmitter and Rt, prage (38), all contained in the Main Device, consisting of the anti-seismic cage, and powered by a C / c accumulator (39) The Devices Annexed to the Main Device, integral parts of the combination of devices, and i, not available The Alarm and Tracking Transmitter 2 8) electrically connected to an accumulator (39) providing direct current, as well as to the Pre-seismic Detector (40) and to the Contactors-Shock Detectors (37), is characterized in what it includes an audible alarm (AS), a light alarm (AL), warning users of the possibility of an earthquake, as well as a Quartz (QZ) radio signal transmitter (AR) for Tracking locate the Main Device or know its existence in case it is buried under rubble following an earthquake (Post-seismic) and save its occupants. The electromechanical shock contactors (37) attached to the ridge of the Main Device, and which as soon as they are crushed by rubble precipitated on this ridge following an earthquake, activate the Alarm and Tracking Transmitter (38) powered by the accumulator (39) and to which they are circuit, triggering the Radio signal (AR) for locating the Main Device in case it is buried under rubble. All these devices and their major components, as well as their variants which will follow in these Claims, must bear inelegantly the acronyms of the Manufacturer as well as the name of the inventor, attesting to their special manufacture relating to anti-seismic protection, responding to a maximum of resistance tests and this also in order to avoid possible counterfeits not meeting the desired safety standards - The names of the Manufacturer and the inventor later making it possible to simplify the naming of these devices - and this also as moral recognition for the inventor and manufacturer of these devices capable of saving several thousand lives in the future. These annexed devices will then be separately claimed, possibly being able to be used independently. , 2) Main device according to claim 1, characterized in a variant of this diositif ~ which will be composed of elements with square section (Fig 18) instead of elements with section requiring special sleeves of assembly with square section  large dimensions, specially machined and tested for maximum resistance, made of solid and light material, such as sleeves with square section for joining angles (21), for assembling oblique struts (3) with edges) and ridge or base of the device by 5-way sleeves (31), 4-way sleeves flat (23) for ridge or base assembly of the device, 3-way sleeves flat (27) for ridge assembly, 5-way arched sleeve with square section (26 ) for assembling struts in 1/4 of a circle (24) with ridge, base and a.r8tes (1), 6-way arched sleeve (32) for assembling struts in 1/4 of a circle (24) with oblique struts (3 ) and edges (1) - The circular accesses of large diameter of the main device are formed by assembling struts in a 1/4 circle (24) with rectangular section, specially machined, joined by arched sleeves (26-32), resulting in a circle (8), the side lozenges are formed by the assembly of oblique struts (3) with square section specially machined and assembled by special sleeves with square section (31-32) to the assembly -All the devices annexed to Claim 12 are contained in this square section variant of the Main Device.  compared to that with L-shaped section, but will make the Dispo -sitif heavier compared to its weight on the ground. The materials composing this variant can be of different nature, for example but not limiting: sleeves in light and resistant metal, unalterable; - and beams, 'purlins, struts ,. made of resistant and unalterable composite material ... The ridge of this variant of the Main Device, includes interlocking and superimposed purlins (6), bolted to the entire ridge with a square section, embedding a strong mesh (10) between them and supporting contactors / shock detectors (37 ) connected to the alarm and tracking transmitter (38), itself connected to the pre-seismic detector (40) and to the accumulator. - DC current meter (39). The putreiles (1) v square section making up this variant will increase the resistance of the assembly 3) Main device according to Claim 1, characterized in another variant of this Device, also composed of ele -ments with square section (Fig 32-33), but not ~ omportant ~ not the special struts in 1/4 of a circle (24), replaced by oblique struts (3) with square section- The assembly of the assembly comprising special sleeves with square section (21-23-31) already mentioned in Claim 2, to which are added d '' other sleeves with square section such as: sleeve with 4 directions opposite to 900 (22) for base and rib assembly sleeve with 3 directions opposite to 900 (27) for base and side assembly 3-way sleeve in Y and flat (28) for assembling oblique struts (3) with vertical rafters and edges (1), 4-way sleeve flat and in K (29) for assembling ridge rafters, 4-way sleeve Y, 'and flat (30 ) for ridge rafter assembly, 6-way sleeve in double K opposite 9 00 (33) for assembling oblique struts (3) with edges (1) and ridge. A strong mesh (10) covers the ridge serving as a shield against possible rubble following an earthquake, preventing small projectiles from reaching and injuring the occupants of this anti-seismic cage. The Additional Devices cited in Claim 1 are also part of this variant of the Main Device according to Claim 1. 4) Special component of a variant of Di; positivePrinciàl: according to Claim. 2 consisting of elements with circular section instead of elements with square section (provided but not shown) whose structure will be similar as in Claim 2- The elements with circular section such as tubes, rods or others, in various light and very resistant, unalterable material, such as hard plastic composite material, hard wood, bamboo, etc. will be assembled by means of the various square section sleeves described in Claims 2 and 3, and the ends of which will be fitted with special components characterized by circular end pieces (34-Fig 34) plugged in these square section sleeves, transforming them into assembly section sleeves circular - This special Circular End Cap (34), whose axis A with square section is bolted to the base of the. crown B and fixed inside one end of the square section sleeve (Fig 34), of variable diameter as required, will be called "Circular Reduction for square section sleeve" (34) 5) Special component of a variant of the Main Device according to Claim 2, the circular access (8) of which is replaced by an arched access (Fig 36) thanks to the special component which is a Full arch arch (35) for support and bracing obtained by cutting special shapes (Fig 35) of "box springs" A and D and "keystones" AB, BC and CD, assembly and bolting or riveting made in between these cuts in the following order: Box springs A or D and BC keys outside, enclosing AB or CD keys inside (Fig 35-Assembly) - This semicircular arch (35) supporting and bracing the assembly, is supported by "Piédroits" (36-Fig 36) with rectangular section, creating an arched access instead of a circular access- Special cuts A, BC, AB, CD, and D (Fig 35) are made of various materials: hard, light, resistant, unalterable and available in sheets. 6) Main devices according to Claims 1, 2, 3, 4 and 5, assembled and fixed side by side and superimposed (Fig 42), resulting in a skeleton of a residential building with a mainly anti-seismic destination, easily assembled thanks to its separate and prefabricated components, (and resistant to large loads precipitated on its plowing for other reasons), whose cover (48) will be supported by oblique crossbowmen (47) of long range, and whose internal partitions and external will be covered with a suitable material (48). All Annexed devices according to Claim 1 will be contained in this variant of Claims 1-2-3-4-5 7) Main devices according to Claims 1-2-3-4-5, the dimensions of which are given in the various figures accompanying the Description are not limiting, characterized in that they may be integrated and camouflaged in the structures and partitions of new constructions, and thus protect them to the maximum seismic- All Devices Annexes according to Claim 1 will also be incorporated into these new constructions. 8) Device annexed to the main device according to Revendica -lion 1, forming an integral part of the combination of anti-seismic devices of this invention, characterized in a detector of land movements preceding an earthquake, ie electromechanical pre-seismic detector (40) , body in non-conductive material, circular in plan shape (Fig 40) and composed of a base B and a crown CS protected by a transparent cover (47) - The base B which will be fixed to the anti-seismic assembly by adjustable bolting (45), supports spirit levels (46) making it possible to properly adjust the horizontality of the pre-seismic detector (40), and is pierced in various places for passage of the electric wires (44) connected to the accumulator (39) and the alarm transmitter (38)> The crown C contains a circular internal base whose center is slightly hollow relative to the sides S not more than 2 or 3 degrees of slope, this internal base is hollowed out from its center by several grooves (42) radiating symmetrically towards the walls internal of crown C, several electrically conductive contact plates (43) are fixed alternately with respect to the grooves (42) on the internal part of crown C - These contact plates (43) are, in plan, in shape sinusoidal  so that a current conducting ball (4l), placed between the ends of two neighboring contacts (43), closes the circuit (Fig 40-Function) - This ball (41) made of current conducting metal, is located at the inside the crown C, and in its center when this device is level-The crown C is pierced in several places for passage of the electric wires (44) connected to the contacts (43), to the accumulator -tor (39), to the transmitter alarms (38) - The contacts (43) are curved in the middle and pierced in order to allow the connection by screwing of conductive wires (44) and the ends of these contacts (43) are bent outwards in order to wedge the contact ball (41) located between two of these contact plates (43) during a horizontal change of level of the Pre-seismic Detector (40) - A removable cover (47) protects this detector (40) with its part upper in transparent material (49) for visual control of the position of the contact ball (41) during leveling of the detector (40) during its instaliiion or for other reasons - The operation (Fig 40-Function) of this pre-seismic detector (40) is characterized in that at the slightest change in level horizontality of the ground on which the Main Device rests containing this pre-seismic detector (40), caused by the very slight ripples -lations preceding larger ripples or earthquakes oonsecutive to an earthquake in progress, often undetectable by people in movement or in sleep, this said change of horizontality will activate the detector (40) -: the contact ball (41) borrows one of the grooves (42) and internal breaks the circuit by contacting the ends of two contacts (43 ) opposite (38> / 39j placed e; end of this groove (42) and engage-emitter of alarms (38) audible and / or luminous, consequently supplied pa.r the accumulator (39) - The people around by warned by these alarms (38 ) will take refuge in the Main device constituted by the anti-seismic cage shelter. The term "Pre-seismic" is included in this claim.ffi8. 9) Device Annex to the Main Device according to Revendica -tion 1, forming an integral part of the combination of anti-seismic devices available of this invention, characterized in Alarm and Tracking transmitter (38) operating electrically and producing sound, light / radio alarms, and connected to the Pre-seismic Detector (40), to the Contactors-Detectors-shock (37) and powered by the accumulator (39) -continuous current * The whole of this Annex Device being content in the Main Device according to Claim I - This Transmitter (38) is characterized in that it contains: a Quartz (QZ -Fig 38) HF transmitter of the Radio Alarm (AR-Fig 38) for locating / locating the Main Device in the event of searches following an earthquake (Post-seismic) if this device is buried under rubble, a Sound Alarm (AS -Fig 38), horn sirens, etc ..., an Alarm Luminous (AL-Fig 38), rotary, intermittent, etc ..., a warning light (VT-Fig 38) for charging the accumulator (39) supplying the whole, these different alarms are dependent on the activation of the Pre-seismic detector (40) and / or Contactors-Shock detectors (37) - The light alarm (AL-Fig 38). Although part of this additional device, is not necessarily contained in this transmitter alarms (38) but can be distant from it while being electrically connected to it. The term "Post-Seismic" is included in this Claim 9. Shock detector (31) (and crash), electromechanical, placed in series on the main device and circulated with the alarm and locator transmitter (38) and the accumulator 9).  10) Device Annex to the Main Device according to Claim 1, forming an integral part of the combination of anti-seismic devices of this invention, characterized in a Contactor-  electromechanical (and not electronic) for the purposes of manufacturing simplification, operation and risk of reduced and easily detectable malfunctions. G (Fig 37) in transparent material, of light impact resistance crushing from a certain weight overloading it, and transparent for visual checks of internal contacts-The body contains an electrical contact plate E (E-Fig 37 ) connected to the + of the alarm transmitter (38) on one side and to the other contact plates E of the contactors-shock detectors (37) placed one after the other on the main device - and another plate of electrical contact CD (CD-Rig 37) with sinusoidal profile, superimposed and a few m / ms away from the Etet contact plate connected to the + of the accumulator (39) C / C on one side and to the other contact plates CD of the following Contactors- Choo detectors (37), electrically circuited in series and regularly arranged on the ridge of the Main Device- This contact plate CD is composed by its lower part C current conducting and its upper part D non-conducting current, this is planned so that following the crushing of the sheath G 'of the contactor (37) by rubble consecutive to an earthquake preci -pitated on the ridge, that these so-called rubble do not short-drcuit the signal (38-39 ) before arriving at the alarm and marking transmitter (38) after contact between plate E and part C of the CD plate (Fig 39) - only the lower part C of the contact plate CD is connected to the electrical circuit of the assembly (Fig 38) by contact screw F, the upper part D being fixed inside the body of the contactor (37) made of insulating material - the ~ lower contact plate E is also connected to the electrical circuit of the assembly (Fig 38) by contact screw H- The operation (Fig 39) of this contactor-shock detector (37) is characterized only during an earthquake The rubble precipitated on the ridge of the Main Device where this contactor (37) is located, will crush the sheath G of this additional device (37) and will put in contact the part C of the contact plate CD, connected to the accumulator (39), with the contact plate Es connected to the tracking alarm transmitter (38), interrupting the circuit-circuit and switching on the transmitter radio tracking (38), allowing to locate the Main Device. The serial connection of these contactors' (37) on the ridge of the Main Device is necessary, this in case some pass through the rubble and are not crushed, the crushing of a single one being sufficient to activate the 'emitter-alarm and radio tracking (38) - This device according to claim 10 for anti-seismic destination, can be used separately from the combination of devices according to CLAIMS 1 for destinations other than anti -seismic and it is the same for the devices according to claims 8 and 9. The devices according to claim 10 and 8 are The body of this contactor-shock detector (37) is made of a material that does not conduct electricity and is contained inside a sheath.